SYSTEMS AND METHODS FOR SELECTIVELY INDEXING BLOCKCHAIN OPERATIONS BY PARSING RAW BLOCKCHAIN DATA FOR RELEVANT DATA PRIOR TO EXECUTING CONFIRMATORY FUNCTION CALLS

Organization Name

Coinbase, Inc.

Inventor(s)

Ben Schreck of Oakland CA (US)

Ejaaz Ahamadeen of Oakland CA (US)

Jing Fan of Oakland CA (US)

Peter Jihoon Kim of Oakland CA (US)

Olivia Thet of Oakland CA (US)

Matt Moore of Oakland CA (US)

Ankit Chiplunkar of Oakland CA (US)

SYSTEMS AND METHODS FOR SELECTIVELY INDEXING BLOCKCHAIN OPERATIONS BY PARSING RAW BLOCKCHAIN DATA FOR RELEVANT DATA PRIOR TO EXECUTING CONFIRMATORY FUNCTION CALLS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240022424 titled 'SYSTEMS AND METHODS FOR SELECTIVELY INDEXING BLOCKCHAIN OPERATIONS BY PARSING RAW BLOCKCHAIN DATA FOR RELEVANT DATA PRIOR TO EXECUTING CONFIRMATORY FUNCTION CALLS

Simplified Explanation

The patent application describes methods and systems for parsing and identifying unindexed parameters and other information encoded in event data on a blockchain. The system retrieves bytecode for a blockchain operation and segregates it into constructor arguments, code sections, and metadata. It then parses the segregated portions of bytecode for representations based on function signatures, event signatures, token standards, and contract addresses. The system can narrow down the known representations based on the type of blockchain network standard.

• The system retrieves bytecode for a blockchain operation.
• The bytecode is segregated into constructor arguments, code sections, and metadata.
• The segregated portions of bytecode are parsed for representations based on function signatures, event signatures, token standards, and contract addresses.
• The system can narrow down the known representations based on the type of blockchain network standard.

Potential applications of this technology:

• Improved analysis and understanding of blockchain transactions.
• Enhanced identification and parsing of unindexed parameters and information in event data.
• Efficient retrieval and organization of bytecode for blockchain operations.

Problems solved by this technology:

• Difficulty in identifying and parsing unindexed parameters and information in event data on a blockchain.
• Inefficient retrieval and organization of bytecode for blockchain operations.

Benefits of this technology:

• Improved analysis and understanding of blockchain transactions.
• Enhanced efficiency in retrieving and organizing bytecode for blockchain operations.
• More accurate identification and parsing of unindexed parameters and information in event data.

Original Abstract Submitted

methods and systems for parsing and identifying unindexed parameters and other information (e.g., a token contract address) that may appear encoded in event data. specifically, the system may retrieve bytecode for an identified blockchain operation (e.g., a transaction). the system may then segregate the bytecode into constructor arguments, code sections, and/or metadata. the system may then parse the segregated portions of bytecode for bytecode representations that are based on function signatures, event signatures, token standards, and/or contract addresses. in some embodiments, the system may further narrow the pool of known bytecode representations that are compared against the remaining sections of bytecode based on bytecode representations corresponding to a particular type of blockchain network standard.